Dept of EEE, REC

               9.  V/f control of 3Φ Induction motor.
               10.Four Quadrant operation of DC Motor.
               11. Simulation of basic power electronics circuits using PSCAD.
               12. State space modelling of dc to dc Converters.
                                                                                                                                         TOTAL: 45 PERIODS

               OUTCOMES:
               On completion of the course, the students will be able to
                         acquire knowledge about fundamental concepts and techniques used in power electronics.
                         ability to express characteristics of SCR, BJT, MOSFET and IGBT.
                         develop skills to build, and troubleshoot power electronics circuits.
                         sound knowledge on the speed control techniques for DC and AC drives.
                         foster  ability  to  understand  the  use  of  power  converters  in  commercial  and  industrial
                          applications.

               EE17612                  IOT APPLICATION IN ELECTRICAL                                    L  T  P  C
                                                    ENGINEERING                                          0   0   2   1

               OBJECTIVES:
                   ●  To implement the basic concepts of ARDUINO.
                   ●  To develop applications using ARDUINO.
                   ●  To  understand  fundamentals  of  programming  such  as  variables,  conditional  and  iterative
                       Execution, methods etc.
                   ●  To develop applications using IoT concepts.
                   ●  To implement features of IoT to solve real world problems.

                   LIST OF EXPERIMENTS:
                   1.  Interfacing and configuration of LED using digital pin of ARDUINO
                   2.  Interfacing and configuration of Buzzer using digital pin of ARDUINO
                   3.  Interfacing and configuration of switches using digital pin of ARDUINO
                   4.  Interfacing of potentiometers using analog pin of ARDUINO
                   5.  Interfacing of moisture, light, flame, temperature & humidity, IR, PIR, Gas, Piezo Vibration, and
                       Sound sensor with ARDUINO
                   6.  Interfacing of Actuators with ARDUINO
                   7.  Interfacing of GSM withARDUINO
                   8.  IoT using ARDUINO
                   9.  Temperature Monitor using IoT
                   10. Smart Irrigation System using IoT
                   11. Smart Water Monitoring using IoT
                   12. Automated Street Lighting using IoT
                   13. Smart Irrigation System using GSM Modem
                   14. Smart Building using IoT
                                                                                        TOTAL: 15 PERIODS

               OUTCOMES:
               On completion of the course, the students will be able to
                   ●  apply the concepts of data acquisition system

               Curriculum and Syllabus | B.E. Electrical and Electronics Engineering | R2017           Page 71